The essential American soul is hard, isolate, stoic, and a killer. It has never yet melted. — D.H. Lawrence

Jaron Lanier tells New York Magazine how Big Internet Tech Companies went wrong.

We used to be kind of rebels, like, if you go back to the origins of Silicon Valley culture, there were these big traditional companies like IBM that seemed to be impenetrable fortresses. And we had to create our own world. To us, we were the underdogs and we had to struggle. And we’ve won. I mean, we have just totally won. We run everything. We are the conduit of everything else happening in the world. We’ve disrupted absolutely everything. Politics, finance, education, media, relationships — family relationships, romantic relationships — we’ve put ourselves in the middle of everything, we’ve absolutely won. But we don’t act like it.

We have no sense of balance or modesty or graciousness having won. We’re still acting as if we’re in trouble and we have to defend ourselves, which is preposterous. And so in doing that we really kind of turn into assholes, you know? …

when you move out of the tech world, everybody’s struggling. It’s a very strange thing. The numbers show an economy that’s doing well, but the reality is that the way it’s doing well doesn’t give many people a feeling of security or confidence in their futures. It’s like everybody’s working for Uber in one way or another. Everything’s become the gig economy. And we routed it that way, that’s our doing. There’s this strange feeling when you just look outside of the tight circle of Silicon Valley, almost like entering another country, where people are less secure. It’s not a good feeling. I don’t think it’s worth it, I think we’re wrong to want that feeling.

It’s not so much that they’re doing badly, but they have only labor and no capital. Or the way I used to put it is, they have to sing for their supper, for every single meal. It’s making everyone else take on all the risk. It’s like we’re the people running the casino and everybody else takes the risks and we don’t. That’s how it feels to me. It’s not so much that everyone else is doing badly as that they’ve lost economic capital and standing, and momentum and plannability. It’s a subtle difference. …

I think the fundamental mistake we made is that we set up the wrong financial incentives, and that’s caused us to turn into jerks and screw around with people too much. Way back in the ’80s, we wanted everything to be free because we were hippie socialists. But we also loved entrepreneurs because we loved Steve Jobs. So you wanna be both a socialist and a libertarian at the same time, and it’s absurd. But that’s the kind of absurdity that Silicon Valley culture has to grapple with.

And there’s only one way to merge the two things, which is what we call the advertising model, where everything’s free but you pay for it by selling ads. But then because the technology gets better and better, the computers get bigger and cheaper, there’s more and more data — what started out as advertising morphed into continuous behavior modification on a mass basis, with everyone under surveillance by their devices and receiving calculated stimulus to modify them. So you end up with this mass behavior-modification empire, which is straight out of Philip K. Dick, or from earlier generations, from 1984.

It’s this thing that we were warned about. It’s this thing that we knew could happen. Norbert Wiener, who coined the term cybernetics, warned about it as a possibility. And despite all the warnings, and despite all of the cautions, we just walked right into it, and we created mass behavior-modification regimes out of our digital networks. We did it out of this desire to be both cool socialists and cool libertarians at the same time.

Q: One of your lifelong theories, which reaches back to your 1980s bestsellers https://www.amazon.com/gp/product/1596988096?ie=UTF8 and The Spirit of Enterprise, is the role of the human spirit and human agency, something economists and governments don’t see or don’t want to acknowledge.

Gilder: It’s the greatest of all forces. Think about what’s going on in the U.S. today, particularly in our university system. As Tyler Cowen describes in his book The Complacent Class, we’ve adopted a kind of ideology of cautionary principles and stationary states. He really puts his finger on it. We’re not living in an age of boldness and abundance, but in an age of retrenchment and shrinking horizons and careful rearrangements of existing resources. A lot of it is epitomized by this whole idea that unless human beings stop moving, the climate’s going to collapse on us.

The climate-change paralysis has been very destructive, not only to our national economy but particularly to Silicon Valley. Every time I find a company that’s doing everything right, I discover a peculiar feature of its technology that’s designed chiefly to stop it from emitting carbon dioxide. And that feature twists the technology into a pretzel, making it less useful and less promising. Take Google. It’s making an elaborate effort to render all of its massive data centers around the world “carbon-neutral.” They’re all linked up to various druidical Sunhenges of solar panels or quixotic kites or windmills. I mean, that’s some archaic way to produce energy!

I think we’re really in the middle of a loss of confidence, a loss of courage that is expressed and perpetrated by a massive expansion in regulations. This began in the Bush era, was vastly expanded during the Obama years, but has now been marginally retrenched. My hope is that the Trump retrenchment signals a truly new approach to the world and the human predicament.

When did human beings start tipping their weapons with poison to hunt prey? This is a question at the forefront of recent archaeological research.

In southern Africa San (or Bushman) hunter-gatherer groups, such as the /Xam of the Western Cape and the Ju/wasi and Hei//om of Namibia, used poisoned arrows for hunting during the 19th and 20th centuries. The origins of this technology, though, may be far older than we thought.

Recently, traces of the poison ricin were found on a 24 000 year-old wooden poison applicator at Border Cave in South Africa’s Lebombo mountains. If this identification is correct it would mean that people in southern Africa were among the first in the world to harness the potential of plant-based poisons.

For nearly 100 years, scientists have dreamed of turning the lightest of all the elements, hydrogen, into a metal.

Now, in a stunning act of modern-day alchemy, scientists at Harvard University have finally succeeded in creating a tiny amount of what is the rarest, and possibly most valuable, material on the planet, they reported in the journal Science.

And it could also allow humanity to explore outer space as never before.

But the prospect of this bright future could be at risk if the scientists’ next step – to establish whether the metal is stable at normal pressures and temperatures – fails to go as hoped.

Professor Isaac Silvera, who made the breakthrough with Dr Ranga Dias, said: “This is the holy grail of high-pressure physics.

“It’s the first-ever sample of metallic hydrogen on Earth, so when you’re looking at it, you’re looking at something that’s never existed before.”

At the moment the tiny piece of metal can only be seen through two diamonds that were used to crush liquid hydrogen at a temperature far below freezing.

The amount of pressure needed was immense – more than is found at the centre of the Earth.

The sample has remained trapped in this astonishing grip, but sometime in the next few weeks, the researchers plan to carefully ease the pressure.

According to one theory, metallic hydrogen will be stable at room temperature – a prediction that Professor Silvera said was “very important”.

“That means if you take the pressure off, it will stay metallic, similar to the way diamonds form from graphite under intense heat and pressure, but remains a diamond when that pressure and heat is removed,” he said.

If this is true, then its properties a super-conductor could dramatically improve anything that uses electricity.

“As much as 15 per cent of energy is lost to dissipation during transmission, so if you could make wires from this material and use them in the electrical grid, it could change that story,” the scientist said.

And metallic hydrogen could also transform humanity’s efforts to explore our solar system by providing a form of rocket fuel nearly four times more powerful than the best available today.

This video and stories all over the Internet attribute this 8-shot very early flintlock revolver on the basis of the maker’s mark to Hans Stopler of Nuremburg, who apparently began working in 1597. They then date the weapon to 1597, despite the plaque listing its owner as Georg von Reichwein dated 1636.

1636 is early enough for me, making the date of the production of the first revolver an even 200 years before Samuel Colt’s Patterson model.

My wife and I bought a new BMW in the early 1980s (Our first new car!). It was terrific, fun to drive, luxurious and reliable. We sold it about ten years later. It had over 350,000 miles on the original engine.

We bought another new Beemer more recently. I discovered, too late, that it came with run-flat tires (no traction at all on gravel roads –Virginia Horse Country is full of gravel roads, and we lived on one–, accompanied by constant false electronic warnings of low tire pressure) which proved good for 10,000 miles. The run-flat tires were used because BMW (encouraged by government bureaucrats to save energy by reducing weight) had chosen to eliminate the spare tire.

What really burned my cork, though, was the discovery that the engine had no dipstick, no way to check the oil. The owner is intended to rely entirely on the dashboard computer, the same computer that issues “The World Is Ending! The Sky Is Falling! Your Engine Has Blown Up!” warnings in very cold weather, or anytime (easily) blocked engine or trunk compartment drains cause wiring to get wet.

I’ve recognized myself the same characteristics of modern consumer products Oilman2 inveighs against. I agree with him. I’ve been swearing lately that my next automobile is going to have been made on the other side of 1960, back when cars were made out of steel, not plastic, and had distributors and carburetors you could adjust yourself and no goddamned computers or emissions crap.

When you buy a car, it is designed for a maximum lifespan of about 10 years, but many are designed with even less. This gives the “design engineer” a window of materials within which he can operate. As an example, cars from the 1950’s used metal dashboards. Now, many reasons are given for why plastic and foam dashboards are currently used, including safety. But I will posit here that the safety was secondary and a great sales driver for using a lower cost material. …

Have you ever owned a car you wanted to keep, only to have the dashboard crack? The air conditioning vents crack? The control knobs crack? That is UV light doing what it does, breaking things down by shattering chemical bonds. …

As a long term material, plastic… well, it just sucks. …

My buddy George was lamenting to me just the other day that the starter on his tractor has a plastic gear that contacts and spins the flywheel. Yep – it goes out very regularly. He asked them why they no longer made a metal one, and was told that the plastic design “put less stress and wear on the flywheel”. Seriously? Really? A part that is truly designed to fail regularly, to protect another metal part that rarely, if ever, fails? I have replaced ONE (1) flywheel in my almost 60 years, and it was damaged by an idiot that just kept cranking a worn out starter. …

In a world where things cost what they are actually worth, it is nuts to knowingly buy anything you will be forced to purchase again in a few years. Today, things do not cost what they are worth – they are cheap, built cheaply with minimal cost materials and minimal standards. They are built in what I term ‘justenuf’ style – justenuf to work for a job or two. They are cheap in America due to the strong dollar as well, further fueling this morass of planned obsolescence, cheap plastic junk and ‘justenuf construction’. …

So my advice is pretty simple:

Buy items that you can repair

This may mean buying older things and restoring them to service. A 1960’s or earlier vehicle will be restorable for a cost of around $10-20,000. What does a new vehicle cost? Can you work on it yourself? Nope, so how much does a trip to the shop cost you? Minimum $500 for the easy things – easily 2x or 3x that for more difficult parts replacement.

What about a lawn mower? Easily $500 or more for something reliable like a Honda or a Husqvarna. A rebuilt one with fresh motor can be had for $300 or less – I see them at the same shops I used to take my mower to for service.

Buy items that have simple, reliable designs

Anything with an ECU (electronic control unit or computer control) is not normally fixable by a guy with some tools. This is intentional, to force you back to the dealer system for service. Anything with computer or digital controls is likely designed in similar vein. Is it really necessary to have touchpad controls and a logic board on a washing machine? To have a refrigerator that has a grocery list linked to your I-phone?

Every time digital is added to a device, the cost goes up for the initial purchase, but the maintenance and repair costs skyrocket. There is little difference in the mechanics internally – freon and compressor for a fridge or freezer and timing circuits and solenoids for the washer. The ‘digital’ end is another level of complexity tacked on to make a common item appear more “tech-ish” and new again.